Lana M. Pollock, Brian M. McDermott Jr
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引用次数: 31
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Abstract
The mechanosensitive hair cells of the inner ear are crucial to hearing and vestibular function. Each hair cell detects the mechanical stimuli associated with sound or head movement with a hair bundle at the apical surface of the cell, consisting of a precise array of actin-based stereocilia. Each stereocilium inserts as a rootlet into a dense filamentous actin mesh known as the cuticular plate. Disruption of the parallel actin bundles forming the stereocilia results in hearing impairments and balance defects. The cuticular plate is thought to be involved in holding the stereocilia in place. However, the precise role of the cuticular plate in hair bundle development, maintenance, and hearing remains unknown. Ultrastructural studies have revealed a complex cytoskeletal architecture, but a lack of knowledge of proteins that inhabit the cuticular plate and a dearth of mutations that perturb relevant proteins have hindered our understanding of the functions of the cuticular plate. Here, we discuss what is known about the structure and development of this unique and poorly-understood actin-rich organelle. Birth Defects Research (Part C) 105:126–139, 2015. © 2015 Wiley Periodicals, Inc.
角质层:一个谜,包裹在一个谜团,在一个毛细胞
内耳的机械敏感毛细胞对听力和前庭功能至关重要。每个毛细胞通过细胞顶端表面的毛束来检测与声音或头部运动相关的机械刺激,毛束由一组精确的基于肌动蛋白的立体纤毛组成。每根立体纤毛像根一样插入被称为角质层的致密丝状肌动蛋白网。形成立体纤毛的平行肌动蛋白束的破坏导致听力障碍和平衡缺陷。角质层板被认为与固定纤毛有关。然而,角质层板在毛束发育、维护和听力中的确切作用尚不清楚。超微结构研究揭示了复杂的细胞骨架结构,但缺乏对表皮板中蛋白质的了解和缺乏干扰相关蛋白质的突变,阻碍了我们对表皮板功能的理解。在这里,我们讨论什么是已知的结构和发展的这种独特的和知之甚少的富肌动蛋白细胞器。出生缺陷研究(C辑)105:126-139,2015。©2015 Wiley期刊公司
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